BE1019781A3 - METHOD AND DEVICE FOR SIMPLIFYING ELECTRICAL INSTALLATIONS. - Google Patents

Description

Method and device for simplifying electrical installations

Electrical installations have become increasingly complex in recent years, partly due to the introduction of software-driven home automation elements in buildings, such as homes or industrial buildings and spaces.

The patent application in the name of the Applicant entitled "Method for use in the installation of a home automation system, computer medium and computer program", filed on the same day as the present application, describes a method that allows an installer to operate an automation or home automation system. The content of this application is hereby incorporated by reference. According to this method, certain actions can be defined to link the behavior of certain devices of the home automation system to certain incoming triggers or inputs. The programming is usually done taking into account the needs of the residents. In the system of the above-referenced application, software is described, among other things, with which a diagram of the building can be introduced to which various input and output units and programmed actions thereof can be added. This should ensure that technicians are less reluctant to try out the wide range of available functions, and that they display relatively more creativity. However, there is a risk that the many intrinsic functionalities of this software will not be used and that the relatively more expensive components will not produce a substantial improvement over the traditional electrical systems.

It is an object of the present invention to provide a device and a method of the type described in the preamble which can still lower this threshold for the installer.

According to a first aspect of the present invention, a device is provided for configuring a programmable electrical system in a building. The electrical system comprises at least one input unit and at least one output unit. The device comprises at least one storage means with a library of predetermined actions. This library can be stored both in the system itself and on, for example, the PC of the installer. Each action defines a behavior of one or more output units as a function of a state of one or more input units. For each action, a description thereof and the associated one or more output units and one or more input units are stored. The device further comprises an interaction means which is adapted to communicate an overview of at least a part of the actions to a user, to have a user select one of the respective actions, and to select a certain action by the user, to communicate the description to a user and to guide him, as it were, in the choices he makes or can make.

By providing such a device, it is expected in practice that this can lead to more complex home automation systems that can better meet the expectations of the residents of a building.

In preferred embodiments, the one or more input units are associated with switches, touchscreen displays or sensors. The sensors may be, for example, a temperature sensor, or a light sensor, or a (air) humidity sensor, rain sensor, air pressure sensor, a motion sensor, or a sensor that can detect specific states of a functional electrical unit (e.g., the status of a sunshade that is electrically in different or an on / off status of a simple electrical switch). Other sensors are also possible, as those skilled in the art will appreciate.

In preferred embodiments, the output units are associated with fans, light-producing units, motors, or displays. Other annotations are also possible, as will be recognized by the skilled person. In typical home automation systems, including the system incorporated in this text by reference above, the input units are adapted to communicate with one or more central control units, included centrally or decentrally in the system, for example over a data bus, but possibly also wirelessly, and are the output units typically via modules in a switch cabinet or can be controlled decentrally through the power supply to the relevant output units. These modules in the switch cabinet and / or decentral modules can also communicate with the same central or decentralized control units. A state of an input unit is thus appropriately transmitted via one or more control units to the module connected to an output unit.

According to a preferred embodiment, the interaction means is further adapted to communicate to the user the one or more output units and one or more input units associated with the action, preferably by visual representation thereof. The storage means may further store an installation plan and the interaction means may then be further arranged to make one or more of the action-associated one or more output units and one or more input units selectable for a user. In addition to selecting the input units and output units that are already present, it is possible to create and add a new input unit or output unit at the time that you wish to make the selection. Afterwards, the optionally selected one or more input and / or output units can then be saved in the installation plan.

According to a preferred embodiment, the interaction means is further adapted to communicate one or more parameters of the one or more output units and / or one or more input units associated with the action to the user. The interaction means is then preferably further adapted to make one or more parameters of the one or more output units and / or one or more input units associated with the action editable for the user.

According to a preferred embodiment, the interaction means is further adapted to propose one or more actions to the user that can be realized with the available one or more input units and output units, wherein the one or more actions are aimed at realizing a more energy-efficient consumption. Furthermore, the interaction means can calculate the expected energy saving based on the data from the automation system.

When an "all off" button is defined, whereby all lighting fixtures and electrical devices are switched off, the system can propose to add the thermostatic valves present to this action as well. In this way, when the "all off" button is activated, the planned control of the thermostatic valves will be ignored and replaced by parameters as entered in the action. When data such as the effective cost price of electricity are present in the system, the means of interaction can calculate and display the energy savings.

Furthermore, an action can be linked to a condition for performing the defined behavior, and the interaction means can be further adapted to communicate this condition to the user, and in particular to make this condition editable for the user. If the user wants to make changes at this time, he will only be able to select those input units and output units that are possible for this action. Once again, new input units and / or output units can be created at that time, but here too it will only be possible to create those that can apply to this specific action.

In preferred embodiments, the condition includes activation conditions that are virtual. By 'virtual' it is understood that the input signal does not correspond directly with the actual event, but that there is a meaning behind it. An example of this may be that when the children are asleep, people want the doorbell to stop ringing, but to have the lights blink in the living room. One can then program a switch or a button on the switch so that when the children are asleep, this button can be activated. The activation of this button is a virtual representation of the 'children sleeping' condition and consequently the mput units and / or output units that are connected to this specific action will be controlled correctly.

In preferred embodiments, respective activation conditions include time conditions. For example, there are services that can control an output unit such as a thermostatic valve depending on the time of day. In preferred embodiments, respective activation conditions include temperature conditions.

For example, there are services that can control an output unit such as a thermostatic valve as a function of the temperature of a part of the building that is received from an input unit such as, for example, a temperature sensor.

In preferred embodiments, respective activation conditions include presence conditions. These presence conditions may or may not be virtual.

In preferred embodiments, the device is adapted to communicate with one or more central or decentralized control units of a home automation system.

In preferred embodiments, the device is arranged to receive information regarding the input units and output units present from such control units.

In preferred embodiments, the device further comprises a filtering means adapted to check whether each of the respective actions can indeed be performed with the available input units and output units, and the interacting means is arranged to communicate only the actions found to be executable , or to allow the user to further consider adding input units and / or output units.

In a second aspect of the present invention, a method is described for configuring a programmable electrical system in a building, the electrical system comprising at least one output unit and at least one input unit. The method comprises consulting a library of predetermined actions, wherein each action defines a behavior of one or more output units as a function of a state of one or more input units, wherein for each action a description thereof and the associated one or more output units and one or more input units are stored; communicating at least a portion of the respective actions to a user; receiving a selection from the user from the portion of the communicated actions; and displaying the description of the selected action to the user on a screen.

An input unit or output unit can be one of the input units or output units described above, respectively.

According to an advantageous embodiment, the action-associated one or more output units and one or more input units are displayed to the user, preferably graphically. Furthermore, an installation plan of the electrical system can advantageously be stored and one or more of the action-associated one or more output units and one or more input units can be stored in the installation plan after selection by a user.

According to a further developed embodiment, one or more parameters of the action-associated one or more output units and / or one or more input units can be displayed to the user. When an action is further linked to a condition for performing the defined behavior, this condition can also be displayed to the user. This condition may, for example, use time conditions and / or temperature conditions and / or presence conditions and / or the state of a particular output means and / or other virtual conditions.

In preferred embodiments, the method further comprises communicating with one or more central or decentralized control units of a home automation system. Information about the available input units and output units of the home automation system can be received.

In preferred embodiments, the method further comprises checking whether each of the respective actions can indeed be performed with the available input units and output units based on the respective information elements, and communicating only the actions found to be executable, or to the user to add further input units and / or output units to be considered.

In a third aspect of the present invention, a computer program is described which comprises an encoder adapted to perform all the steps of an embodiment of the second aspect when it is run on a computer.

Further aspects of the present invention are described in the subclaims. The properties of the subclaims, properties of one of the subclaims and one of the features of other subclaims can be combined and considered suitable for those skilled in the art, and not only in the specific combinations as defined by the claims.

The description of the aspects of the present invention is accomplished by means of specific embodiments and with reference to, but not limited to, certain drawings. The figures shown are only schematic and should be considered as non-limiting. Reference Symbols are selected to be the same for similar or the same elements or features in different figures or drawings.

In the description of certain embodiments of the present invention, various features are sometimes grouped in a single embodiment, figure, or description thereof for the purpose of contributing to the understanding of one or more of the various inventive steps.

An example according to embodiments of the present invention is shown in Figure 1.

In FIG. 1, an image is proposed on an interface of the device with an installer / user, such as, for example, a screen.

As indicated in the application incorporated in this text, an installer of an electrical installation may, in order to perform a programming of the installation, do so with the aid of a computer program. The device according to the first aspect of the present invention can, for example, be a computer. This computer then comprises a software according to aspects of the present invention. Preferably, the automation or home automation system for which the software is developed is a system in which input units somehow change their state to a central control unit, e.g. over a data bus, data line or other wired connection, or over a wireless interface, to communicate.

The control unit determines which actions are triggered with this and controls certain modules in order to supply the corresponding output units (for example fan and lamp) with power and consequently to switch it on.

Note that the modules can also be arranged to also continuously control the current, for example to control the ventilation speed of a fan or the light intensity of a lamp.

The interface as shown in FIG. 1, communicates with the user a list of possible services (also called actions), for example by displaying them on a screen. For this a library is consulted that contains the necessary information. The library is typically predetermined in the software, and can be changed through appropriate updates. The user can then select one of the services or promotions and thereby indicate that he wishes to receive more information about it. In preferred embodiments, this can lead to requesting respective information elements or a description and displaying this information on the screen. This can be done in a systematic way, for example, where different selection or entry fields are presented to the user. In the example shown in FIG. 1, various sheets are shown which comprise services relating to corresponding subjects, for example lamps, sun blinds, heating others. The user / installer can then select a subject or category of services, for example "lamps", in a first step, after which a number of services, typically common services, are displayed in the relevant category (see Fig. 2), and after which the installer selects one of the services shown.

For example, the installer may select the service (action) that indicates the installation of a typical electrical functionality in a toilet, indicated by the name "light and fan in a toilet". After its selection, the description is communicated to the installer. This can be done in various ways that are known to those skilled in the art. For example, a pop-up screen, text bar or even the visual representation may appear indicating that for such a service at least one switch 1, at least one lighting device 41, and at least one fan 42 must be present. If this is not the case, the installer can add the necessary input units or output units. For this he can, for example, interact with the fields 2, 6 or 7 (see Fig. 2). If this is the case, possibly after this addition of input units or output units by the installer, the installer can for example also have the opportunity to change or enter certain parameters. This can be done, for example, by interacting with the fields 5. The installer is given the opportunity to confirm the configuration of a chosen service and to save it in a configuration file. This configuration file can then be transferred to a control unit of the building / home automation system, which is adapted to read and use the configuration file.

If the real electronic system corresponds to the system considered in the software, the operation of the real system will correspond to this. In this example the switch 1, when "switching on" (bringing it into the first state ("on" position)) of the switch (the second state is then the "off" position), will turn both the fan and the lamp on. turn on the toilet, where, for example, if the parameters were not / could not be changed, the fan will be turned on 10 seconds after the switch is turned on, and the fan will continue to run for 30 seconds after the switch is turned off.

It will be appreciated by those skilled in the art that the device allows him to program much more complex services in the automation or home automation system, with relatively limited time loss and with the guarantee that everything works as intended.

While some embodiments described herein include some but no other features included in other embodiments, combinations or features of different embodiments are intended to be within the scope of the invention, and to form different embodiments, as would be understood by those skilled in the art.

While the principles of the invention have been described above in connection with specific embodiments, it is to be clearly understood that this description is made by way of example only, and is not limitative of the scope of protection defined by the appended claims.

Claims (29)

An apparatus for use in configuring a programmable electrical system in a building, the electrical system comprising at least one output unit and at least one input unit, comprising a storage means comprising a library of predetermined actions, wherein each action is a behavior of one or more defines more output units as a function of a state of one or more input units, with a description thereof and the associated one or more output units and one or more input units being stored for each action; an interaction means adapted to communicate an overview of at least a part of the actions to a user, to have a user select one of the respective actions, and to communicate the description thereof after selection of a particular action by the user to a user. Device as claimed in claim 1, characterized in that the interaction means is further adapted to communicate, preferably visually represent, the user associated with the action one or more output units and one or more input units. Device as claimed in claim 2, characterized in that an installation plan is further stored on the storage means and that the interaction means is further arranged around one or more. make more of the one or more output units and one or more input units associated with the action selectable for a user, and to store the optionally selected one or more input and / or output units in the installation plan. Device as claimed in any of the foregoing claims, characterized in that the interaction means is further adapted to communicate one or more parameters of the one or more output units and / or one or more input units associated with the action to the user. Device as claimed in claim 4, characterized in that the interaction means is further adapted to make one or more parameters of the one or more output units and / or one or more input units associated with the action editable for the user. Device as claimed in any of the foregoing claims, characterized in that the interaction means is further adapted to present one or more actions to the user that can be realized with the available one or more input units and output units, wherein the one or more actions are aimed at to achieve more energy-efficient consumption. Device as claimed in claim 6, characterized in that the interaction means is further adapted to calculate the expected energy saving on the basis of data from the automation system. Device as claimed in any of the foregoing claims, characterized in that an action can be further linked to a condition for performing the defined behavior, and that the interaction means is further adapted to communicate this condition to the user. Device as claimed in claim 8, characterized in that the interaction means is further adapted to make this condition changeable for the user. Device as claimed in claim 8 or 9, wherein the conditioner comprises one or more of the following: time conditions, temperature conditions, presence conditions, virtual conditions. A device according to any one of the preceding claims, wherein an input unit is associated with one of the following elements: a switch, a sensor, a touch screen, a smartphone. 12. Device as claimed in any of the foregoing claims, wherein an output unit is associated with one of the following elements: a fans, a light-producing units, a motors, a screen, an electrically controlled cranes. Device as claimed in any of the foregoing claims, which is adapted to communicate with one or more control units of an automation or home automation system. Device as claimed in claim 13, wherein the device is adapted to receive information concerning the input units and output units present in the automation or home automation system. Device as claimed in any of the foregoing claims, wherein the device further comprises a filtering means which is adapted to check whether each of the actions can be carried out with certain available input units and output units, and wherein the interaction means is arranged to only perform the actions found to communicate to the user. An apparatus according to claim 15, wherein the filtering means is further adapted to determine which of the required input units and / or output units is not present for a particular action, and wherein the interaction means is adapted to communicate only the absent units to the user . A method for configuring a programmable electrical system in a building, the electrical system comprising at least one output unit and at least one input unit, comprising consulting a library of predetermined actions, wherein each action is a behavior of one or more output units defines as a function of a state of one or more input units, a description thereof and the associated one or more output units and one or more input units being stored for each action; communicating at least a portion of the respective actions to a user; receiving a selection from the user from the portion of the communicated actions; displaying the description of the selected action to the user on a screen. Method according to claim 17, characterized in that the one or more output units and one or more input units associated with the action are displayed to the user, preferably visually displayed to the user. A method according to claim 18, characterized in that an installation plan of the electrical system is stored and that one or more of the action-associated one or more output units and one or more input units are stored in the installation plan after selection by a user . A method according to any one of claims 17-19, characterized in that one or more parameters of the one or more output units and / or one or more input units associated with the action are displayed to the user. A method according to any one of claims 17-20, characterized in that an action can be further linked to a condition for performing the defined behavior, and that this condition is displayed to the user. The method of claim 21, wherein the condition comprises one or more of the following: time conditions, temperature conditions, presence conditions, virtual conditions. A method according to any of claims 17-22, wherein an input unit is associated with one of the following elements: a switch, a sensor, a touch screen, a smartphone. A method according to any one of claims 17-23, wherein an output unit is associated with one of the following elements: a fans, a light-producing units, a motors, a screen, an electrically controlled valves. The method of any one of claims 17-24, further comprising communicating with one or more control units of an automation or home automation system. The method of claim 25, further comprising receiving information regarding the present input units and output units from the home automation system. The method of any one of claims 17-26, further comprising checking whether each of the respective actions can be performed with certain available input units and output units, and communicating only the actions found to be executable. The method of claim 27, further comprising checking whether all necessary input units and / or output units are present for a particular action, and communicating the absent units. A computer program comprising a computer program code means adapted to perform the steps of any of claims 15-25 when the program is run on a computer.